Intermediate copper wire drawing machine manufacturers 1800m/min
copper wire machines
1. Technical parameter:
model | 250-21 | 250-17 | CJ280-9 | 300-9 |
Inlet wire | Φ2.6-Φ3.5mm | Φ2.6-Φ3.5mm | Φ2.6-Φ3.5mm | Φ2.6-Φ3.5mm |
Outlet wire | Φ0.4-Φ1.2mm | Φ0.4-Φ1.6mm | Φ1.0-Φ2.2mm | Φ1.0mm-Φ2.76mm |
Max speed of drawing | 1800m/min | 1800m/min | 800m/min | 1000m/min |
Drawing block size | Φ250mm | Φ250mm | Φ280mm | Φ300mm |
Max number of passes | 21 | 17 | 9 | 9 |
2. Brier introduction:
Inlet Wire Supply: The machine receives copper wire stock from a
spool or coil, which serves as the inlet wire supply for the
drawing process.
Drawing Dies: A series of drawing dies, made of hard material such
as tungsten carbide, are arranged in succession within the machine.
These dies progressively reduce the diameter of the copper wire as
it passes through them.
Drawing Cones or Rollers: Drawing cones or rollers, often made of
hardened steel, provide the pulling force necessary to pull the
wire through the drawing dies.
Tension Control System: The machine incorporates a tension control
system to regulate the tension applied to the wire during the
drawing process. This ensures smooth and continuous wire feeding
without breakage.
Cooling and Lubrication Systems: Cooling and lubrication systems
are employed to reduce friction and heat generation during the
drawing process. This helps to maintain the integrity of the wire
and extends the life of the drawing dies and rollers.
Monitoring and Control Panel: Modern intermediate wire drawing
machines may feature electronic sensors and a control panel for
real-time monitoring of parameters such as wire tension, speed, and
temperature. This allows for precise control over the drawing
process.
3. Operation:
Wire Feeding: The copper wire stock is fed into the machine from
the spool or coil and passed through a series of guide rollers to
ensure proper alignment.
Drawing Process: The wire is pulled through the series of drawing
dies by the drawing cones or rollers. With each pass through a die,
the diameter of the wire is reduced incrementally until it reaches
the desired size.
Cooling and Lubrication: During the drawing process, cooling and
lubrication systems apply coolant and lubricant to the wire to
reduce friction and heat. This helps to prevent surface defects and
maintain the quality of the drawn wire.
Quality Inspection: As the wire exits the drawing machine, it may
undergo quality inspection to ensure that it meets specified
dimensional and quality standards. This may involve measuring wire
diameter, surface finish, and mechanical properties.
4. FAQ:
Dear customers, there are several models for the coppr rod
breakdown machine. In order to recommend the suitabe models, we'd
like to learn some information:
1. Inlet and outlet wire diameter
2. Whether need online annealer
3. Take up method: Spool bobbin or coiler?
4. Dimension drawing of spool bobbin/wire basket
Best regards
5. Reference photos